Physical object-based visual workspace configuration system

ABSTRACT

A processing system having at least one processor may establish a communication session between a first communication system of a first user and a second communication system of a second user, the communication session including first video content of a first physical environment of the first user and second video content of a second physical environment of the second user, determine a first visualization action for a first physical object in the first physical environment in accordance with a first configuration setting of the first user for the communication session, obtain the first video content from a first camera of the first communication system, detect the first physical object in the first video content, and perform the first visualization action to modify the first video content. The processing system may then transmit first visualization information including the first video content that is modified to the second communication system.

This application is a continuation of U.S. patent application Ser. No.16/697,482, filed Nov. 27, 2019, now. U.S. Pat. No. 10,827,132, which isa continuation of U.S. patent application Ser. No. 16/171,902, filedOct. 26, 2018, now U.S. Pat. No. 10,498,973, both of which are hereinincorporated by reference in their entirety.

The present disclosure relates generally to visual communicationsessions, and more particularly to methods, computer-readable media, anddevices for providing a communication session including video content ofa physical environment that is modified in accordance with avisualization action for a physical object.

BRIEF DESCRIPTION OF THE DRAWINGS

The teachings of the present disclosure can be readily understood byconsidering the following detailed description in conjunction with theaccompanying drawings, in which:

FIG. 1 illustrates an example network related to the present disclosure;

FIG. 2 illustrates a flowchart of an example method for providing acommunication session including video content of a physical environmentthat is modified in accordance with a visualization action for aphysical object; and

FIG. 3 illustrates a high level block diagram of a computing devicespecifically programmed to perform the steps, functions, blocks and/oroperations described herein.

To facilitate understanding, identical reference numerals have beenused, where possible, to designate identical elements that are common tothe figures.

DETAILED DESCRIPTION

In one example, the present disclosure describes a method,computer-readable medium, and device for providing a communicationsession including video content of a physical environment that ismodified in accordance with a visualization action for a physicalobject. For instance, in one example, a method may include a processingsystem having at least one processor establishing a communicationsession between at least a first communication system of a first userand a second communication system of a second user, the communicationsession including first video content of a first physical environment ofthe first user and second video content of a second physical environmentof the second user. The processing system may further determine at leasta first visualization action for a first physical object in the firstphysical environment in accordance with a first configuration setting ofthe first user for the communication session, obtain the first videocontent from at least a first camera of the first communication system,detect the first physical object in the first video content, and performthe at least the first visualization action to modify the first videocontent. The processing system may then transmit first visualizationinformation including the first video content that is modified to thesecond communication system of the second user.

Examples of the present disclosure include processing systems configuredto determine local and remote user contexts (e.g., activity, location,etc.) for a visual communication session and to modify workspaceenvironments (e.g., user interfaces) based on the remote and/or localcontexts. For instance, examples of the present disclosure may hide,anonymize, or summarize media flows in accordance with privacy andcontent-sensitivity filters. In one example, a processing system mayrecreate a workspace environment across different types of hardware andmay control outbound media flows to remote parties (e.g., video,portions of a user interface, available tools or other components ofsuch a user interface, and so forth). In addition, in one example, aprocessing system may also provide automated in-process modification ofinbound media flows for a local party at a receiving end of theconnection. In one example, different input and display capabilities ofa user's communication system are automatically set according to theuser's desired configuration for a particular context of the visualcommunication session.

Augmented reality (AR) and/or mixed realty (MR) applications and videochat usage is increasing. The present disclosure provides specializedconfigurations for different locations (e.g., home, office, bedside,public park, etc.) and utility (work, play, commuting, etc.). Notably,even if a trusted location such as a home office is used for a workspaceenvironment, the people involved, their activities, the objects or otheritems in view, and so forth may be automatically detected and validated,e.g., for appropriateness, relevance to the visual communicationsession, and so forth. In one example, modulations of a workspace (e.g.,hiding, removing, blocking, or obfuscating of physical items and/orportions of a user interface) may be in accordance with configurationsettings for different types of connections (e.g., work collaborationsession, personal call, client meeting, etc.).

In one example, connections and workspaces are optimized based onmachine learning-supported intelligent modulations. For example, aprocessing system may determine configuration settings without user(s)pre-specifying, in accordance with user profile(s) and learned behaviorsin connection with certain contexts. In one example, diverse types ofworkspaces (e.g., a work office, a home office, a mobile virtual office,etc.) may be seamlessly used for video communications with consistentconsideration of privacy of the user and others (e.g., non-participants)who may be in the vicinity. As such, examples of the present disclosureprovide for mappings of visual communication sessions across differenttypes of contexts, including hardware availability (e.g., desktopcomputers, mobile computing devices, sensors, cameras, displays,projectors, wearable computing devices, etc.), network capabilities,physical environments (e.g., work, home, public transportation, park),user intents (e.g., work, personal, recreation, etc.), users' moods,users' biometric states, and so on. In addition, in one example, remoteequipment and ubiquitous displays (e.g., television projectors, wallpanels, microphones, speakers, etc.) may be utilized to create aworkspace for a particular communication session. In other words, one ormore users/participants in a video communication session may be provideda workspace with devices in a physical environment, without having tonecessarily carry a personal computing device, camera, etc. at alltimes.

In one example, a processing system may schedule a connection based onthe parties and the workspace requirements. For instance, the processingsystem may determine that one of the parties will be in a bettercontext/location at a later time based upon the user's schedule, theavailability of different resources as another location or at the samelocation but at a different time, and so on. In one example, parts of aworkspace can be hidden or simplified based on the context (e.g., anavailable room, tool complexity, etc.). For instance, if low networkbandwidth or a visual anomaly is detected, a static presentation of aface or other content could be used instead of live on-camerainteraction. In one example, the video frame rate or picture quality mayalso be modulated to match service conditions.

As devices capable of video-based communication are increasinglyinstalled and/or used in different locations (e.g., bedside, bathroom,etc.), in accordance with the present disclosure extra precautions maybe taken to first detect and validate that a video signal should becaptured and sent. For example, a user may receive a call for a visualcommunication session while waking up, and he or she may prefer to notbe visible in this condition. Similarly, a user may receive a call afterjust finishing an exercise session and would also prefer to not bevisible. In another example, a user may be in a cluttered living room orkitchen and may prefer that one or more other participants of a visualcommunication session would not see the mess. In all of these cases, theuser may be edited out of the video, blocked, blurred, replaced with apreselected picture or avatar, or the outbound video may be omitted fromthe visual communication session. However, it should be noted that userinterface content of the user's workspace environment may still betransmitted in the outbound direction (e.g., in accordance withconfiguration settings specific to user interface content). In stillanother example, a remote user receiving video content from one or moreother users may have specific and unique personal preferences regardingwhat may be considered offensive, explicit, etc., whereas the sendingparty may not show any concern. In such case, a processing system mayalso apply inbound filtering of video or other visual information forthe recipient with unique personal preferences.

In one example, the present disclosure may include monitoring remotevideo feeds for persons in need of assistance, for security purposes, orthe like, where a visual communication session may be initiatedautomatically in response to detection of certain contexts. In oneexample, the present disclosure may include system-controlledwrap-up/shut-down of user workspaces such as disengaging one or morecameras, locking sensitive accounts, disabling some interactioncomponents, and so on. In addition, in one example, historical usagepatterns may be used to determine which actions to take during theshut-down procedures.

In one example, a processing system may submit requests to third-partiesin an area with appropriate resources to support a workspace inconnection with a request to establish a visual communication session.In addition, in one example, a processing system may send requests toautomated systems (e.g., fixed cameras, drones, etc.) to respect a zoneof privacy around a user engaging in a visual communication session in apublic environment. In another example, translation services (e.g., foraudio, visual, text, language, etc.) may be applied based oninteractions between different parties of the visual communicationsession.

In still another example, the workspace may also be modulated for“ideal” conditions and connections, such as moving the focus of apan/tilt/zoom camera, boosting audio, changing a chair height, replacinga background to match what is expected, and so on. These and otheraspects of the present disclosure are described in greater detail belowin connection with the examples of FIGS. 1-3.

To further aid in understanding the present disclosure, FIG. 1illustrates an example system 100 in which examples of the presentdisclosure for providing a communication session including video contentof a physical environment that is modified in accordance with avisualization action for a physical object may operate. The system 100may include any one or more types of communication networks, such as atraditional circuit switched network (e.g., a public switched telephonenetwork (PSTN)) or a packet network such as an internet Protocol (IP)network (e.g., an IP Multimedia Subsystem (IMS) network), anasynchronous transfer mode (ATM) network, a wireless network, a cellularnetwork (e.g., 2G, 3G, and the like), a long term evolution (LTE)network, and the like related to the current disclosure. It should benoted that an IP network is broadly defined as a network that usesinternet Protocol to exchange data packets. Additional example IPnetworks include Voice over IP (VoIP) networks, Service over IP (SoIP)networks, and the like.

In one example, the system 100 may comprise a network 102, e.g., atelecommunication service provider network, a core network, anenterprise network comprising infrastructure for computing andcommunications services of a business, an educational institution, agovernmental service, or other enterprises. The network 102 may be incommunication with one or more access networks 120 and 122, and theInternet (not shown). In one example, network 102 may combine corenetwork components of a cellular network with components of a tripleplay service network; where triple-play services include telephoneservices, internet services and television services to subscribers. Forexample, network 102 may functionally comprise a fixed mobileconvergence (FMC) network, e.g., an IP Multimedia Subsystem (IMS)network. In addition, network 102 may functionally comprise a telephonynetwork, e.g., an internet Protocol/Multi-Protocol Label Switching(IP/MPLS) backbone network utilizing Session Initiation Protocol (SIP)for circuit-switched and Voice over internet Protocol (VoIP) telephonyservices. Network 102 may further comprise a broadcast televisionnetwork, e.g., a traditional cable provider network or an internetProtocol Television (IPTV) network, as well as an internet ServiceProvider (ISP) network. In one example, network 102 may include aplurality of television (TV) servers (e.g., a broadcast server, a cablehead-end), a plurality of content servers, an advertising server (AS),an interactive TV/video on demand (VoD) server, and so forth.

In accordance with the present disclosure, application server (AS) 104may comprise a computing system or server, such as computing system 300depicted in FIG. 3, and may be configured to provide one or moreoperations or functions for providing a communication session includingvideo content of a physical environment that is modified in accordancewith a visualization action for a physical object, as described herein.It should be noted that as used herein, the terms “configure,” and“reconfigure” may refer to programming or loading a processing systemwith computer-readable/computer-executable instructions, code, and/orprograms, e.g., in a distributed or non-distributed memory, which whenexecuted by a processor, or processors, of the processing system withina same device or within distributed devices, may cause the processingsystem to perform various functions. Such terms may also encompassproviding variables, data values, tables, objects, or other datastructures or the like which may cause a processing system executingcomputer-readable instructions, code, and/or programs to functiondifferently depending upon the values of the variables or other datastructures that are provided. As referred to herein a “processingsystem” may comprise a computing device including one or moreprocessors, or cores (e.g., as illustrated in FIG. 3 and discussedbelow) or multiple computing devices collectively configured to performvarious steps, functions, and/or operations in accordance with thepresent disclosure.

Thus, although only a single application server (AS) 104 is illustrated,it should be noted that any number of servers may be deployed, and whichmay operate in a distributed and/or coordinated manner as a processingsystem to perform operations for providing a communication sessionincluding video content of a physical environment that is modified inaccordance with a visualization action for a physical object, inaccordance with the present disclosure. In one example, AS 104 maycomprise a physical storage device (e.g., a database server), to storevarious types of information in support of systems for providing acommunication session including video content of a physical environmentthat is modified in accordance with a visualization action for aphysical object, in accordance with the present disclosure. For example,AS 104 may store configuration settings for various users, households,employers, service providers, and so forth that may be processed by AS104 in connection with establishing visual communication sessions, orthat may be provided to devices establishing visual communicationsessions via AS 104. AS 104 may further store object models, a lexicon(e.g., of topic models), and so forth which may be utilized by users,households, employers, service providers, and so forth to createconfiguration settings, e.g., actions to modify videos and/or usersinterfaces for various contexts. For ease of illustration, variousadditional elements of network 102 are omitted from FIG. 1.

In one example, the access networks 120 and 122 may comprise DigitalSubscriber Line (DSL) networks, public switched telephone network (PSTN)access networks, broadband cable access networks, Local Area Networks(LANs), wireless access networks (e.g., an IEEE 802.11/Wi-Fi network andthe like), cellular access networks, 3^(rd) party networks, and thelike. For example, the operator of network 102 may provide a cabletelevision service, an IPTV service, or any other type oftelecommunication service to subscribers via access networks 120 and122. In one example, the access networks 120 and 122 may comprisedifferent types of access networks, may comprise the same type of accessnetwork, or some access networks may be the same type of access networkand other may be different types of access networks. In one example, thenetwork 102 may be operated by a telecommunication network serviceprovider. The network 102 and the access networks 120 and 122 may beoperated by different service providers, the same service provider or acombination thereof, or may be operated by entities having corebusinesses that are not related to telecommunications services, e.g.,corporate, governmental or educational institution LANs, and the like.

In one example, the access network 120 may be in communication with adevice 131. Similarly, access network 122 may be in communication withone or more devices, e.g., device 141. Access networks 120 and 122 maytransmit and receive communications between devices 131 and 141, betweendevices 131 and 141, and application server (AS) 104, other componentsof network 102, devices reachable via the internet in general, and soforth. In one example, each of devices 131 and 141 may comprise anysingle device or combination of devices that may comprise a userendpoint device. For example, the devices 131 and 141 may each comprisea mobile device, a cellular smart phone, a wearable computing device(e.g., smart glasses) a laptop, a tablet computer, a desktop computer,an application server, a bank or cluster of such devices, and the like.In one example, devices 131 and 141 may each comprise programs, logic orinstructions for performing functions in connection with examples of thepresent disclosure for providing a communication session including videocontent of a physical environment that is modified in accordance with avisualization action for a physical object. For example, devices 131 and141 may each comprise a computing system or device, such as computingsystem 300 depicted in FIG. 3, and may be configured to provide one ormore operations or functions in connection with examples of the presentdisclosure for providing a communication session including video contentof a physical environment that is modified in accordance with avisualization action for a physical object, as described herein.

In one example, the device 131 is associated with a first user (user 1)191 at a first physical environment 130. As illustrated in FIG. 1, thedevice 131 may comprise a wearable computing device (e.g., smartglasses) and may provide a user interface 135 for user 191. Forinstance, device 131 may comprise smart glasses with an outward facingcamera with augmented reality (AR) enhancement capabilities. Forinstance, endpoint device 131 may have a screen and a reflector toproject outlining, highlighting, or other visual markers to the eye(s)of user 191 to be perceived in conjunction with the surroundings. In thepresent example, device 131 may provide three windows 137-139 in theuser interface 135. Also associated with user 191 and/or first physicalenvironment 130 is a camera 132 which may be facing user 191 and whichmay capture a video comprising the first physical environment 130,including user 191 and other items or objects therein, such as objects Aand B. In one example, camera 132 may communicate with device 131wirelessly, e.g., to provide a video stream of the first physicalenvironment 130. As an alternative, or in addition, device 131 may alsocomprise an outward facing camera to capture video of the first physicalenvironment 130 from a field of view in a direction that user 191 islooking.

Collectively, the physical environment 130 and user interface 135 may bereferred to as a “workspace environment.” In one example, the componentsassociated with user 191 and/or first physical environment 130 that areused to establish and support a visual communication session may bereferred to as a “communication system.” For instance, a communicationsystem may comprise device 131, or device 131 in conjunction with camera134, device 131 in conjunction with a smartphone or personal computer, awireless router, or the like supporting visual communication sessions ofdevice 131, and so on.

Similarly, device 141 may be associated with a second user (user 2) 192at a second physical environment 140. As illustrated in FIG. 1, thedevice 141 may comprise a personal computer, desktop computer, or thelike, and may provide a user interface 145 for user 192 via a pluralityof display screens 147-149. The user interface 145 may be similar touser interface 135, but may be provided with physical display screens147-149 instead of projections of windows 137-139. Also associated withuser 192 and/or second physical environment 140 is a camera 142 whichmay be facing user 192 and which may capture a video comprising thesecond physical environment 140, including user 192 and other items orobjects therein, such as object C and another person, non-participant193. In one example, camera 142 may be coupled to device 141 and mayprovide a video stream of the second physical environment 140.

In one example, devices 131 and 141 may communicate with each otherand/or with AS 104 to establish, maintain/operate, and/or tear-down avisual communication session. In one example, AS 104 and device 131and/or device 141 may operate in a distributed and/or coordinated mannerto perform various steps, functions, and/or operations described herein.To illustrate, AS 104 may establish and maintain visual communicationsessions for various users and may store and implement configurationsettings specifying both inbound and outbound modifications of mediastreams from the various users. The media streams may comprise videocontent, which may include visual imagery of a physical environment, andwhich in some cases may further include recorded audio of the physicalenvironment. In one example, the media streams may also include userinterface content, which may include visual content (such as documents,text, web browser windows, email client windows, animations, etc.)and/or audio content (such as music or other audio being played, speechof an automated assistant or interactive voice response (IVR) system,and so forth). For example, AS 104 may receive a request to establish avisual communication session from device 131 and/or device 141. Thevisual communication session may be established for such devices afterAS 104 retrieves configuration settings for the user 191 and/or user192, determines which configuration setting(s) to apply based upon thecontext(s), and activates the respective filters/configurationsetting(s) which are determined to apply to the context(s). The requestmay be received via access network 120, access network 122, network 102,and/or Internet in general, and the visual communication session may beprovided via any one or more of the same networks.

The establishment of the visual communication session may includeproviding security keys, tokens, certificates, or the like to encryptand to protect the media streams between device 131 and 141 when intransit via one or more networks, and to allow devices 131 and 141 todecrypt and present received video content and/or received userinterface content via user interfaces 135 and 145, respectively. In oneexample, the establishment of the visual communication session mayfurther include reserving network resources of one or more networks(e.g., network 102, access networks 120 and 122, etc.) to support aparticular quality of service (QoS) for the visual communication session(e.g., a certain video resolution, a certain delay measure, and/or acertain packet loss ratio, and so forth). Such reservation of resourcesmay include an assignment of slots in priority queues of one or morerouters, the use of a particular QoS flag in packet headers which mayindicate that packets should be routed with a particular priority level,the establishment and/or use of a certain label-switched path with aguaranteed latency measure for packets of the visual communicationsession, and so forth.

In one example, AS 104 may establish a communication path such thatmedia streams between device 131 and device 141 pass via AS 104, therebyallowing AS 104 to implement modifications to video content and/or userinterface content in accordance with the applicable configurationsetting(s). The configuration settings may be user-specified, may bebased upon the capabilities of devices of user 191 and/or user 192 beingused for the visual communication session, may be provided by anemployer or sponsor of a visual communication session service of network102 and/or AS 104, may be provided by an operator of network 102 or thesystem 100 in general, and so forth. As just one example, device 131 mayprovide information regarding the capabilities and capacities of device131 and camera 132 to AS 104 in connection with a request to establish avisual communication session with device 141. AS 104 may send anotification of the request to device 141. Similarly, device 141 mayprovide information regarding the capabilities and capacities of device141 and camera 142 to AS 104 in connection with a response to therequest/notification to establish the visual communication session.

In one example, device 131 and/or device 141 may indicate a purpose forthe call (e.g., further context) such as a work collaboration session, aclient call, a sales call, a work related call, a non-work related call,e.g., a personal call, etc. In this regard, the user 191 may havepreviously provided to AS 104 configuration settings to match todifferent types of calls (e.g., different contexts). In one example,user 191 may have indicated that for a work call, any non-essentialobjects should be omitted from the video content provided to otherusers/participants of the visual communication session. In the presentexample, user 191 may have indicated in the request to establish thevisual communication session that the purpose is a work call. In thisregard, AS 104 may determine that object A (e.g., a hand-held tablet) isrelevant to the visual communication session and that object B (e.g., afamily picture of user 191) is not. In one example, the user 191 maypre-specify relevant and/or non-relevant objects for different types ofcalls. As an alternative, or in addition, AS 104 may includeprogramming, logic, instructions, or the like to determine which objectsare relevant. For instance, an image salience detection algorithm maydetermine that object A is relevant since it is being moved, touched,and/or interacted with by user 191, whereas object B is in thebackground and static. In still another example, AS 104 may learn overtime that user 191 typically interacts with object A during visualcommunication sessions for “work” and does not typically interact withobject B. Thus, AS 104 may add to the configuration setting(s) and/orcreate a new configuration setting that whenever object B is detected invideo content associated with user 191 for a work call, that object Bshould be omitted. In the present example, and as illustrated in FIG. 1,AS 104 may determine that user 191 is not using object B, and/or thatobject B is simply present in the video content of the first physicalenvironment 130. Accordingly, AS 104 may omit or edit out object B fromthe video content prior to forwarding the video content to device 141.Thus, when device 141 shows, e.g., via display 147, the video content ofthe first physical environment 130 that has been modified, it can beseen in the example of FIG. 1 that the object B has been omitted fromthe visual imagery in region 181 (shown as a dashed box).

In another example, AS 104 may determine that device 141 does not havesufficient processing or memory capability to render video content ofthe first physical environment 130 from camera 132 at the fullresolution that camera 132 may capture and stream the video content viadevice 131. As such, AS 104 may receive the video content and mayperform one or more modifications to reduce the bitrate, reduce windowdimensions (e.g., to crop the video content), to omit portions of thevideo content, etc. In the present example, and as illustrated in FIG.1, AS 104 may determine that user 191 is not using object B in the firstphysical environment 130. Accordingly, AS 104 may omit or edit outobject B from the video content prior to forwarding the video content todevice 141. Thus, when device 141 presents, e.g., via display 147, thevideo content of the first physical environment 130 that has beenmodified, it can be seen in the example of FIG. 1 that the object B hasbeen omitted from the visual imagery in region 181.

In one example, AS 104 may determine that a configuration setting ofuser 192 is also applicable in the context(s) of the current visualcommunication session. For example, the user 192 may indicate that noindividuals other than user 192 should be visible in the outbound videocontent of the second physical environment 140. As such, AS 104 mayreceive video content of the second physical environment 140 capturedvia camera 142 and transmitted via device 141. AS 104 may then apply adetection algorithm to identify humans in the video content, and then tofurther apply an identification algorithm to identify user 192. Anyother humans not identified as user 192 may then be edited out of thevideo content. In this case, non-participant 193 may be detected in thevideo content of second physical environment 140 and may be cut-out,blocked, blurred, etc., by AS 104 before forwarding the video content ofthe second physical environment 140 to device 131. Thus, when device 131presents the video content of the second physical environment 140 thathas been modified, e.g., in window 137, it can be seen in the example ofFIG. 1 that the non-participant 193 has been omitted from the visualimagery in region 182.

The foregoing describes an example of network-based application ofconfiguration settings by AS 104. However, it should be understood thatin other, further, and different examples, the application ofconfiguration settings and the modifications of video content inaccordance with the configuration settings may alternatively oradditionally be applied locally, e.g., at device 131 and/or device 141.As just one example, device 131 may apply a configuration setting toomit unnecessary devices from video content of first physicalenvironment, while AS 104 may apply an employer's configuration settingsthat are applicable to all user and all contexts. For instance, user 191may be at home and wearing casual clothing, e.g., shorts and a shortsleeve shirt. While user 191 may be unconcerned about his or herappearance, the employer may determine that such apparel isnon-professional and that no users (e.g., employees) should be presentedin this condition. As such, AS 104 may run an algorithm for detectingcasual clothing in the video content, apply the algorithm to the videocontent of the first physical environment 130, determine that user 191is wearing casual clothing, and modify the image of user 191 in thevideo content accordingly, e.g., blocking all or a portion of the user,blurring the user, etc., before forwarding the video content to device141.

In addition, the foregoing examples describe application ofconfiguration settings/modifications for outbound video content.However, examples of the present disclosure are equally applicable toinbound video content. For instance, user 192 may prefer to conservelocal computing resources and may therefore establish a configurationsetting for application by AS 104 and/or at device 141 to eliminateunnecessary objects or other items from inbound video content. In thepresent example, device 131 may send video content of the first physicalenvironment 130 that includes user 191 and objects A and B. However, AS104 and/or device 141 may determine that object B is not relevant to thecontext (e.g., a work collaboration session), has not been used by user191, etc., and may therefore edit object B out of the video contentbefore presentation via display 147. Thus, various additional examplesof the same or a similar nature are all contemplated within the scope ofthe present disclosure.

In one example, all or a portion of users'/participants' user interfacecontent may also be exchanged in a visual communication session inaccordance with the present disclosure. In addition, configurationsettings may also be provided for users 191 and/or 192, for an employeror service provider, for a network operator, and so on with respect toboth outbound and inbound user interface content. As just one example,users 191 and 192 may take turns controlling shared files, e.g., aspreadsheet and a document. User 191 may have the spreadsheet presentedin the window 138 and the document presented in the window 139 in userinterface 135. In addition, as user 191 manipulates these files, anychanges may be propagated to device 141 (e.g., first user interfacecontent of user interface 135). However, user 192 may have aconfiguration setting (e.g., applied by device 141) which may rearrangethe spreadsheet and document to have a different spatial relationship.For instance, in user interface 145, the document is presented viadisplay 148 to the left of spreadsheet 149 presented via display 149.

In still another example, AS 104 may manage the user interface 145 andapply such a configuration setting on behalf of user 192. For instance,AS 104 may comprise a host for a cloud-desktop/cloud computingenvironment, and device 141 may act as a terminal to present visualand/or audio output in accordance with instructions from AS 104 forrendering the user interface 145. As such, AS 104 may select theparticular spatial relationships and orientations of components of theuser interface 145 (e.g., video content from the other user 191 viadisplay 147, document via display 148, and spreadsheet via display 149).It should also be noted that the user interface 145 may be initiallyrendered in accordance with configuration setting(s) of user 192, user191, an employer, a service provider, etc. determined to be applicablein the context(s) that are found in connection with the visualcommunication session. However, in one example, user 191 and/or user 192may also alter or override any changes to video content and/or userinterface content that may have automatically been applied, e.g., whennot prohibited by an immutable configuration setting as defined by oneof the parties, an employer or service provider, etc.

In one example, AS 104 may store a catalog of configuration settingsthat may be selected for use in visual communication sessions of varioususers and for various contexts. For instance, AS 104 may have aplurality of available machine learning algorithms or other applicationsfor detecting casual clothing, for detecting clutter, for detecting abedroom, for detecting a kitchen, for detecting a presence ofnon-participants, for detecting a public location, for detecting certaincontent in the user interface content, for detecting unused portions ofa user interface (and the user interface content that is transmitted toa recipient/counterparty to the visual communication session via the oneor more networks), and so forth. Thus, users, employers, serviceproviders, network operators, etc. may select various configurationsettings from such a catalog to be applied by AS 104 and/or for downloadand application locally at user devices and/or communication systems.

It should also be noted that the system 100 has been simplified. Thus,it should be noted that the system 100 may be implemented in a differentform than that which is illustrated in FIG. 1, or may be expanded byincluding additional endpoint devices, access networks, networkelements, application servers, etc. without altering the scope of thepresent disclosure. In addition, system 100 may be altered to omitvarious elements, substitute elements for devices that perform the sameor similar functions, combine elements that are illustrated as separatedevices, and/or implement network elements as functions that are spreadacross several devices that operate collectively as the respectivenetwork elements. For example, the system 100 may include other networkelements (not shown) such as border elements, routers, switches, policyservers, security devices, gateways, a content distribution network(CDN) and the like. For example, portions of network 102, accessnetworks 120 and 122, and/or Internet may comprise a contentdistribution network (CDN) having ingest servers, edge servers, and thelike for packet-based streaming of video, audio, or other content.Similarly, although only two access networks, 120 and 122 are shown, inother examples, access networks 120 and/or 122 may each comprise aplurality of different access networks that may interface with network102 independently or in a chained manner.

In one example, the system 100 may further include wireless or wiredconnections to sensors, such as temperature sensors, door sensors, lightsensors, movement sensors, etc., to automated devices, such as aerial orvehicular drones (e.g., equipped with global positioning system (GPS)receivers, cameras, microphones, wireless transceivers, and so forth,and which my capture video content of a physical environment), todevices of other users and/or non-participants, and so forth. Forinstance, in one example, AS 104 may communicate with an automatedaerial drone that is detected to be near the first physical environment130 and/or the second physical environment 140 and transmit a requestfor the aerial drone to voluntarily respect boundaries of an area aroundor near the first physical environment 130 and/or the second physicalenvironment 140, e.g., for privacy of users 191 and 192. In anotherexample, device 131 may maintain a first configuration setting when avisual communication session is established. However, a door sensor maycommunicate with device 131 to indicate that a door has been opened(e.g., to a house of user 191). This may indicate that other individualsmay imminently enter the first physical environment 130 and that asecond configuration setting should be applicable/activated (e.g., toalter the outbound video content of first physical environment 130 toexclude non-participants who may be potentially captured in the visualimagery, to obfuscate visual imagery of the second physical environment140 to hide the identities of user 192 and/or non-participant 193, toswitch presentation of the user interface 135 from a projection on awall (e.g., via a projector coupled to device 131 (not shown) to aprojection via eyepiece(s) of the device 131, and so on. Thus, these andother modifications are all contemplated within the scope of the presentdisclosure.

FIG. 2 illustrates a flowchart of an example method 200 for providing acommunication session including video content of a physical environmentthat is modified in accordance with a visualization action for aphysical object, in accordance with the present disclosure. In oneexample, the method 200 is performed by a component of the system 100 ofFIG. 1, such as by application server 104, device 131, or device 141,and/or any one or more components thereof (e.g., a processor, orprocessors, performing operations stored in and loaded from a memory),or by application server 104, in conjunction with one or more otherdevices, such as device 131, device 141, and so forth. In one example,the steps, functions, or operations of method 200 may be performed by acomputing device or system 300, and/or processor 302 as described inconnection with FIG. 3 below. For instance, the computing device orsystem 300 may represent any one or more components of applicationserver 104, device 131, or device 141 in FIG. 1 that is/are configuredto perform the steps, functions and/or operations of the method 200.Similarly, in one example, the steps, functions, or operations of method200 may be performed by a processing system comprising one or morecomputing devices collectively configured to perform various steps,functions, and/or operations of the method 200. For instance, multipleinstances of the computing device or processing system 300 maycollectively function as a processing system. For illustrative purposes,the method 200 is described in greater detail below in connection withan example performed by a processing system. The method 200 begins instep 205 and proceeds to step 210.

At optional step 210, the processing system may receive a request toestablish a communication session (e.g., a visual communication session)from at least one of a first communication system of a first user or asecond communication system of a second user. The processing system mayinclude at least one processor deployed in the first physicalenvironment and/or at least one processor deployed in a communicationnetwork. The processing system may alternatively or additionallycomprise the first communication system of the first user, the secondcommunication system of the second user, and/or network-basedcomponents.

At step 215, the processing system establishes the communication sessionbetween the first communication system of a first user and the secondcommunication system of a second user. The communication session mayinclude first video content of a first physical environment of the firstuser and second video content of a second physical environment of thesecond user. In one example, the communication session may furthercomprise first user interface content of the first user (e.g., providedvia the first communication system) and second user interface content ofthe second user (e.g., provided via the second communication system). Inone example, step 215 may include reserving network resources of one ormore networks to support the communication session.

It should also be noted that although the terms, “first,” “second,”“third,” etc., are used herein, the use of these terms are intended aslabels only. Thus, the use of a term such as “third” in one example doesnot necessarily imply that the example must in every case include a“first” and/or a “second” of a similar item. In other words, the use ofthe terms “first,” “second,” “third,” and “fourth,” do not imply aparticular number of those items corresponding to those numericalvalues. In addition, the use of the term “third” for example, does notimply a specific sequence or temporal relationship with respect to a“first” and/or a “second” of a particular type of item, unless otherwiseindicated.

At step 220, the processing system determines at least a firstvisualization action for a first physical object in the first physicalenvironment in accordance with first configuration settings of the firstuser for the communication session. For instance, the processing systemmay store and/or access the first configuration settings to determineone or more visualizations actions with respect to the first videocontent of the first physical environment and/or first user interfacecontent of the first user (e.g., filtering of “outbound” media content).In other words, the first configuration settings may comprise the “firstvisualization action,” a “third visualization action” for modifying afirst user interface content of the first user, and so forth.

In one example, the at least the first visualization action for thefirst physical object may comprise at least one of: removing the firstphysical object from the first video content, blocking the firstphysical object in the first video content, or obfuscating the firstphysical object in the first video content. The at least the firstvisualization action may be in accordance with at least one of: acapability of the first communication system, a capability of the secondcommunication system, a capability of the processing system, or anetwork capability. For example, the first user can designate certainobjects as being unimportant and which can be dropped from thecommunication session when local, remote, or network resources arestrained. This can be encoded into the configuration settings as arules-based modification to the first video content.

The first configuration settings may be associated with at least one of:a location of the first physical environment, a time of day, a presenceof other individuals besides the first user in the first physicalenvironment, or a type of task for the communication session. Forinstance, the type of task could be a social call, a work collaborationsession, a client meeting, and so forth. The location could be work,home (or more specifically a bedroom, a kitchen, a living room, etc.),an outdoor public place, an indoor public place, and so forth.

In one example, the first configuration settings may further comprise atleast a third visualization action for the first user interface contentfor the communication session. The at least the third visualizationaction may comprise at least one of: removing at least a portion of thefirst user interface content, blocking at least a portion of the firstuser interface content, obfuscating at least a portion of the first userinterface content, or altering a location of at least a first portion ofthe first user interface content with respect to at least a secondportion of the first user interface content. In addition, in oneexample, the first configuration settings may further comprise at leasta fourth visualization action for the second user interface content forthe communication session. In one example, the first configurationsettings may further comprise a fifth visualization action for a thirdphysical object in the second video content for the communicationsession. For example, the “fourth” and “fifth” visualization actions maycomprise filtering of “inbound” media content according to the firstconfiguration settings.

At step 225, the processing system obtains the first video content fromat least a first camera of the first communication system, e.g.,deployed and/or present in the first physical environment.

At step 230, the processing system detects the first physical object inthe first video content. For example, step 230 may include image featureextraction for images in the first video content. In one example, theprocessing system may use object detection to identify objects from oneor more images in the first video content (e.g., based upon featuresthat are useable to distinguish the object from other objects or toseparate the object from other aspects of captured digital images,without specifically determining the identities and/or types of theobjects). In one example, the processing system may then comparefeatures of identified objects with an object model for the firstphysical object and/or an object type of the first physical object. Inone example, an object model may be associated with a hyper-dimensionalspace that is representative of visual properties of an object that maybe quantified from the first video content. For instance, the objectmodel may comprise a discriminator. The discriminator may comprise amachine learning model that determines whether new data is or is notpart of a class represented by training data; in this case the capturedmeasurements/properties of the first physical object. In other examples,the object model may comprise a different type of machine learning modeland/or classification algorithm, e.g., a deep neural network (DNN), amulti-class support vector machine (SVM), and so forth. The specificoperations of step 230 may vary depending upon the capabilities of thedevice(s) performing the method 200, the type(s) of video content madeavailable, and so forth.

At step 235, the processing system performs the at least the firstvisualization action to modify the first video content. For instance,the at least the first visualization action for the first physicalobject may comprise at least one of: removing the first physical objectfrom the first video content, blocking the first physical object in thefirst video content, or obfuscating the first physical object in thefirst video content. The first visualization action may specify removingthe object because the object is offensive, proprietary, sensitive,irrelevant, unused, constitutes clutter in the physical environment,etc. Similarly, blocking can be because the object is offensive,proprietary, sensitive, constitutes clutter in the physical environment,etc. In one example, obfuscating may include blurring, but can alsocomprise using a different representation of the object, such as anavatar or a better version of an image of the object (e.g., a cleankitchen in a picture from an earlier time versus the current videocontent of a cluttered kitchen). In one example, the processing systemfurther performs at least a third visualization action (e.g., of thefirst configuration settings) to modify the first user interfacecontent. For example, the processing system may rearrange the spatialrelationship between windows containing a document and a spreadsheet,respectively. Various additional modifications of the same or a similarnature may be performed in accordance with the at least the thirdvisualization action.

At step 240, the processing system transmits first rendering informationincluding the first video content that is modified to the secondcommunication system of the second user. For instance, the secondcommunication system is to render a second user interface for the seconduser in accordance with the first video content that is modified. Forinstance, at least a portion of the second user interface may displaythe first video content in a manner accessible to the second user (e.g.,via a projection by a wearable device, via a display screen of apersonal computer and/or mobile computing device, etc.). In one example,the transmitting of the first rendering information further comprisestransmitting the first rendering information including first userinterface content that is modified in accordance with the thirdvisualization action.

At optional step 245, the processing system may determine at least asecond visualization action for a second physical object in the secondphysical environment in accordance with second configuration settingsfor the second user for the communication session. For instance, thesecond visualization action and the second configuration settings may besimilar to the first visualization action and the first configurationsettings, however with respect to the second user and his or herpreferences, family, work, or service provider requirements, and so onfor outbound video content of the second user (e.g., the second videocontent). The second visualization settings may also include one or morevisualization actions for outbound user interface content of the seconduser (e.g., the second user interface content). In addition, the secondconfiguration settings may also include one or more visualizationactions for one or more physical objects in the received video content(e.g., in the first video content from the first user), for one or moreaspects of the received user interface content (e.g., first userinterface content of the first user), and so forth.

At optional step 250, the processing system may obtain the second videocontent from at least a second camera of the second communicationsystem, e.g., deployed in the second physical environment. In oneexample, step 250 may comprise similar operations to step 225 discussedabove.

At optional step 255, the processing system may detect the secondphysical object in the second video content. In one example, step 255may comprise similar operations to step 230 discussed above.

At optional step 260, the processing system may perform the at least thesecond visualization action to modify the second video content. In oneexample, step 260 may comprise similar operations to step 235 discussedabove.

At optional step 265, the processing system obtains second userinterface content of the second user.

At optional step 270, the processing system may perform at least afourth visualization action (e.g., of the first configuration settings)to modify the second user interface content. For instance, the firstconfiguration settings of the first user may specify one or morevisualization actions for inbound user interface content, such asreordering the spatial relationship of windows for spreadsheets,documents, and so forth, filtering out visual information that isunnecessary or offensive, and so on.

At optional step 275, the processing system may transmit secondrendering information including the second user interface content thatis modified to the first communication system of the first user. Forinstance, the first communication system may render a first userinterface for the first user in accordance with the second userinterface content that is modified. In one example, the firstcommunication system may render the first user interface for the firstuser in accordance with second video content that is modified and inaccordance with the second user interface content that is modified.

At optional step 280, the processing system may render the first userinterface for the first user in accordance with the second userinterface content that is modified. In one example, the processingsystem may render the first user interface for the first user inaccordance with second video content that is modified and in accordancewith the second user interface content that is modified. In one example,the rendering of the first user interface for the first user comprisespresenting the second video content that is modified (and/or the seconduser interface content that is modified) via at least one display deviceof the first communication system. In one example, the rendering furthercomprises obtaining the second video content from the secondcommunication system.

In one example, the rendering further comprises presenting the firstuser interface content of the first communication system. For example,the first user's own user interface content may be presented in additionto the second video content of the second user that is modified and/orthe second user interface content of the second user (that may also bemodified in accordance with configuration settings of the first user,the second user, or both). As just one additional example, the firstconfiguration settings may comprise a fifth visualization action for athird physical object in the second video content for the communicationsession. In such an example, the rendering of optional step 280 mayfurther comprise performing the at least the fifth visualization actionto modify the second video content, where the presenting the secondvideo content comprises presenting of the second video content that ismodified. In one example, optional steps 275 and 280 may be performed bya processing system including the first communication system,network-based components, and/or the second communication system.Alternatively, or in addition, step 275 may be performed by a processingsystem comprising network-based components, and step 280 may be omitted.

Following step 240, or any of the optional steps 245-280 the method 200proceeds to step 295 where the method ends.

It should be noted that the method 200 may be expanded to includeadditional steps, or may be modified to replace steps with differentsteps, to combine steps, to omit steps, to perform steps in a differentorder, and so forth. For instance, in one example the processor mayrepeat one or more steps of the method 200, such as steps 220-240 tocontinue to receive first video content, to apply the firstvisualization action to the first physical object, etc. In one example,the first configuration settings and/or the second configurationsettings may further specify conditions for modifying audio aspects ofthe first video content, the second video content, the first userinterface content, and/or the second user interface content, such asobjectionable speech, the voice(s) or sound(s) of non-participants,non-relevant background music or other noises, and so forth. In anotherexample, the first configuration settings and/or the secondconfiguration settings may further specify conditions for modifying textcontext (e.g., in user interface content or in video content), such asblocking, obfuscating, or omitting sensitive text, proprietary text,text that is covered by a non-disclosure agreement, and so on. Forinstance, the method may include, for video content, optical characterrecognition (OCR) image processing to extract text from one or moreimages/frames and then comparing the text to a list of one or morewords/phrases associated with modifications of the video content andstored in the first or second configuration settings.

In still another example, the method 200 may be expanded to includetopic (e.g., theme and/or concept) detection and then selectingconfiguration settings for the first user and/or the second user inaccordance with the topic. For instance, the processing may apply topicmodels (e.g., classifiers) for a number of topics to the first videocontent, the second video content, the first user interface content,and/or the second user interface content to identify a topic. The topicmodel classifiers can be trained from any text, video, image, audioand/or other types of content to recognize various topics, which mayinclude objects like “car,” scenes like “outdoor,” and actions or eventslike “baseball.” Topic identification classifiers may include supportvector machine (SVM) based or non-SVM based classifiers, such as neuralnetwork based classifiers and may utilize the same or similar featuresextracted from the first video content, the second video content, thefirst user interface content, and/or the second user interface that maybe used to identify objects for modification in accordance with firstconfiguration settings and/or second configuration settings. Once atopic is identified, the topic may be further correlated withconfiguration settings for work collaboration, client meeting, family,personal call, etc. For instance, a topic of “baseball” may be mapped toconfiguration settings for “personal call” rather than “workcollaboration.” The mapping(s) may be provided by the users, a head ofhousehold, an employer, a provider of a visual communication sessionservice, and so forth. Thus, these and other modifications are allcontemplated within the scope of the present disclosure.

In addition, although not expressly specified above, one or more stepsof the method 200 may include a storing, displaying and/or outputtingstep as required for a particular application. In other words, any data,records, fields, and/or intermediate results discussed in the method canbe stored, displayed and/or outputted to another device as required fora particular application. Furthermore, operations, steps, or blocks inFIG. 3 that recite a determining operation or involve a decision do notnecessarily require that both branches of the determining operation bepracticed. In other words, one of the branches of the determiningoperation can be deemed as an optional step. Furthermore, operations,steps or blocks of the above described method(s) can be combined,separated, and/or performed in a different order from that describedabove, without departing from the example embodiments of the presentdisclosure.

FIG. 3 depicts a high-level block diagram of a computing device orprocessing system specifically programmed to perform the functionsdescribed herein. For example, any one or more components or devicesillustrated in FIG. 1 or described in connection with the method 200 maybe implemented as the processing system 300. As depicted in FIG. 3, theprocessing system 300 comprises one or more hardware processor elements302 (e.g., a microprocessor, a central processing unit (CPU) and thelike), a memory 304, (e.g., random access memory (RAM), read only memory(ROM), a disk drive, an optical drive, a magnetic drive, and/or aUniversal Serial Bus (USB) drive), a module 305 for providing acommunication session including video content of a physical environmentthat is modified in accordance with a visualization action for aphysical object, and various input/output devices 306, e.g., a camera, avideo camera, storage devices, including but not limited to, a tapedrive, a floppy drive, a hard disk drive or a compact disk drive, areceiver, a transmitter, a speaker, a display, a speech synthesizer, anoutput port, and a user input device (such as a keyboard, a keypad, amouse, and the like).

Although only one processor element is shown, it should be noted thatthe computing device may employ a plurality of processor elements.Furthermore, although only one computing device is shown in the Figure,if the method(s) as discussed above is implemented in a distributed orparallel manner for a particular illustrative example, i.e., the stepsof the above method(s) or the entire method(s) are implemented acrossmultiple or parallel computing devices, e.g., a processing system, thenthe computing device of this Figure is intended to represent each ofthose multiple general-purpose computers. Furthermore, one or morehardware processors can be utilized in supporting a virtualized orshared computing environment. The virtualized computing environment maysupport one or more virtual machines representing computers, servers, orother computing devices. In such virtualized virtual machines, hardwarecomponents such as hardware processors and computer-readable storagedevices may be virtualized or logically represented. The hardwareprocessor 302 can also be configured or programmed to cause otherdevices to perform one or more operations as discussed above. In otherwords, the hardware processor 302 may serve the function of a centralcontroller directing other devices to perform the one or more operationsas discussed above.

It should be noted that the present disclosure can be implemented insoftware and/or in a combination of software and hardware, e.g., usingapplication specific integrated circuits (ASIC), a programmable logicarray (PLA), including a field-programmable gate array (FPGA), or astate machine deployed on a hardware device, a computing device, or anyother hardware equivalents, e.g., computer readable instructionspertaining to the method(s) discussed above can be used to configure ahardware processor to perform the steps, functions and/or operations ofthe above disclosed method(s). In one example, instructions and data forthe present module or process 305 for providing a communication sessionincluding video content of a physical environment that is modified inaccordance with a visualization action for a physical object (e.g., asoftware program comprising computer-executable instructions) can beloaded into memory 304 and executed by hardware processor element 302 toimplement the steps, functions or operations as discussed above inconnection with the example method 200. Furthermore, when a hardwareprocessor executes instructions to perform “operations,” this couldinclude the hardware processor performing the operations directly and/orfacilitating, directing, or cooperating with another hardware device orcomponent (e.g., a co-processor and the like) to perform the operations.

The processor executing the computer readable or software instructionsrelating to the above described method(s) can be perceived as aprogrammed processor or a specialized processor. As such, the presentmodule 305 for providing a communication session including video contentof a physical environment that is modified in accordance with avisualization action for a physical object (including associated datastructures) of the present disclosure can be stored on a tangible orphysical (broadly non-transitory) computer-readable storage device ormedium, e.g., volatile memory, non-volatile memory, ROM memory, RAMmemory, magnetic or optical drive, device or diskette and the like.Furthermore, a “tangible” computer-readable storage device or mediumcomprises a physical device, a hardware device, or a device that isdiscernible by the touch. More specifically, the computer-readablestorage device may comprise any physical devices that provide theability to store information such as data and/or instructions to beaccessed by a processor or a computing device such as a computer or anapplication server.

While various embodiments have been described above, it should beunderstood that they have been presented by way of example only, and notlimitation. Thus, the breadth and scope of a preferred embodiment shouldnot be limited by any of the above-described example embodiments, butshould be defined only in accordance with the following claims and theirequivalents.

What is claimed is:
 1. A method comprising: establishing, by aprocessing system including at least one processor, a communicationsession between at least a first communication system of a first userand a second communication system of a second user, the communicationsession including first video content of a first physical environment ofthe first user and second video content of a second physical environmentof the second user; determining, by the processing system, at least afirst visualization action for a first physical object in the firstphysical environment in accordance with a first configuration setting ofthe first user for the communication session, wherein the firstconfiguration setting indicates that a non-essential object should beobfuscated in the first video content; obtaining, by the processingsystem, the first video content from at least a first camera of thefirst communication system; detecting, by the processing system, thefirst physical object in the first video content; determining, by theprocessing system in accordance with an image salience detectionalgorithm, that the first physical object is deemed to be thenon-essential object; performing, by the processing system, the at leastthe first visualization action to modify the first video content,wherein the at least the first visualization action comprisesobfuscating the first physical object in the first video content inaccordance with the first configuration setting when it is determinedthat the first physical object is the non-essential object; andtransmitting, by the processing system, first rendering informationincluding the first video content that is modified to the secondcommunication system of the second user.
 2. The method of claim 1,wherein the second communication system is to render a second userinterface for the second user in accordance with the first video contentthat is modified.
 3. The method of claim 1, wherein the at least thefirst visualization action is in accordance with at least one of: acapability of the first communication system; a capability of the secondcommunication system; a capability of the processing system; or acapability of a network supporting the communication session.
 4. Themethod of claim 1, further comprising: determining at least a secondvisualization action for a second physical object in the second physicalenvironment in accordance with a second configuration setting for thesecond user for the communication session; obtaining the second videocontent from at least a second camera of the second communicationsystem; detecting the second physical object in the second videocontent; and performing the at least the second visualization action tomodify the second video content.
 5. The method of claim 4, furthercomprising at least one of: transmitting second rendering informationincluding the second video content that is modified to the firstcommunication system of the first user, wherein the first communicationsystem is to render a first user interface for the first user inaccordance with the second video content that is modified; or renderingthe first user interface for the first user in accordance with thesecond video content that is modified.
 6. The method of claim 1, whereinthe communication session further comprises: first user interfacecontent of the first user; and second user interface content of thesecond user.
 7. The method of claim 6, wherein the first configurationsetting comprises at least a third visualization action for the firstuser interface content for the communication session, wherein thetransmitting the first rendering information further comprises:transmitting the first rendering information including the first userinterface content that is modified in accordance with the at least thethird visualization action.
 8. The method of claim 7, wherein the atleast the third visualization action comprises at least one of: removingat least a portion of the first user interface content; blocking atleast a portion of the first user interface content; obfuscating atleast a portion of the first user interface content; or altering alocation of at least a first portion of the first user interface contentwith respect to at least a second portion of the first user interfacecontent.
 9. The method of claim 7, wherein the first configurationsetting comprises at least a fourth visualization action for the seconduser interface content for the communication session, wherein the methodfurther comprises: obtaining the second user interface content; andperforming the at least the fourth visualization action to modify thesecond user interface content.
 10. The method of claim 9, furthercomprising at least one of: transmitting second rendering informationincluding the second user interface content that is modified to thefirst communication system of the first user, wherein the firstcommunication system is to render a first user interface for the firstuser in accordance with the second user interface content that ismodified; or rendering the first user interface for the first user inaccordance with the second user interface content that is modified. 11.The method of claim 1, further comprising: rendering a first userinterface for the first user, wherein the rendering comprises:presenting the second video content via at least one display device ofthe first communication system.
 12. The method of claim 11, wherein therendering further comprises: obtaining the second video content from thesecond communication system.
 13. The method of claim 11, wherein therendering further comprises: presenting first user interface content ofthe first communication system.
 14. The method of claim 11, wherein thefirst configuration setting comprises at least a fifth visualizationaction for a third physical object in the second video content for thecommunication session.
 15. The method of claim 14, wherein the renderingfurther comprises: performing the at least the fifth visualizationaction to modify the second video content, wherein the presenting thesecond video content comprises presenting the second video content thatis modified.
 16. The method of claim 1, further comprising: receiving arequest to establish the communication session from at least one of thefirst communication system or the second communication system.
 17. Themethod of claim 1, wherein the first configuration setting is associatedwith at least one of: a location of the first physical environment; atime of day; a presence of at least one other individual besides thefirst user in the first physical environment; or a type of task for thecommunication session.
 18. A non-transitory computer-readable mediumstoring instructions which, when executed by a processing systemincluding at least one processor, cause the processing system to performoperations, the operations comprising: establishing a communicationsession between at least a first communication system of a first userand a second communication system of a second user, the communicationsession including first video content of a first physical environment ofthe first user and second video content of a second physical environmentof the second user; determining at least a first visualization actionfor a first physical object in the first physical environment inaccordance with a first configuration setting of the first user for thecommunication session, wherein the first configuration setting indicatesthat a non-essential object should be obfuscated in the first videocontent; obtaining the first video content from at least a first cameraof the first communication system; detecting the first physical objectin the first video content; determining, in accordance with an imagesalience detection algorithm, that the first physical object is deemedto be the non-essential object; performing the at least the firstvisualization action to modify the first video content, wherein the atleast the first visualization action comprises obfuscating the firstphysical object in the first video content in accordance with the firstconfiguration setting when it is determined that the first physicalobject is the non-essential object; and transmitting first renderinginformation including the first video content that is modified to thesecond communication system of the second user.
 19. A device comprising:a processing system including at least one processor; and acomputer-readable medium storing instructions which, when executed bythe processing system, cause the processing system to performoperations, the operations comprising: establishing a communicationsession between at least a first communication system of a first userand a second communication system of a second user, the communicationsession including first video content of a first physical environment ofthe first user and second video content of a second physical environmentof the second user; determining at least a first visualization actionfor a first physical object in the first physical environment inaccordance with a first configuration setting of the first user for thecommunication session, wherein the first configuration setting indicatesthat a non-essential object should be obfuscated in the first videocontent; obtaining the first video content from at least a first cameraof the first communication system; detecting the first physical objectin the first video content; determining, in accordance with an imagesalience detection algorithm, that the first physical object is deemedto be the non-essential object; performing the at least the firstvisualization action to modify the first video content, wherein the atleast the first visualization action comprises obfuscating the firstphysical object in the first video content in accordance with the firstconfiguration setting when it is determined that the first physicalobject is the non-essential object; and transmitting first renderinginformation including the first video content that is modified to thesecond communication system of the second user.
 20. The device of claim19, wherein the second communication system is to render a second userinterface for the second user in accordance with the first video contentthat is modified.